package pl.wr.particle.def.matter.elementary.hypothetical.others;

import pl.wr.particle.def.matter.typeparticle.IHypotethicalParticle;

/**
 * In particle physics, majorons (named after Ettore Majorana) are a
 * hypothetical type of Goldstone boson that are theorized to mediate the
 * neutrino mass violation of lepton number or B − L in certain high energy
 * collisions such as e− + e− → W− + W− + J Where two electrons collide to form
 * two W bosons and the majoron J. The U(1)B–L symmetry is assumed to be global
 * so that the majoron isn't "eaten up" by the gauge boson and spontaneously
 * broken. Majorons were originally formulated in four dimensions by Y.
 * Chikashige, R. N. Mohapatra and R. D. Peccei to understand neutrino masses by
 * the seesaw mechanism and are being searched for in the neutrino-less double
 * beta decay process. There are theoretical extensions of this idea into
 * supersymmetric theories and theories involving extra compactified dimensions.
 * By propagating through the extra spatial dimensions the detectable number of
 * majoron creation events vary accordingly. Mathematically, majorons may be
 * modeled by allowing them to propagate through a material while all other
 * Standard Model forces are fixed to an orbifold point.
 * 
 * @version 1.0
 * @author wieslaw.rodak
 *
 */
public interface IMajoron extends IHypotethicalParticle{

	String SYMBOL = "J";

}
